vaporizing
简明释义
英[ˈveɪpəraɪzɪŋ]美[ˈveɪpəraɪzɪŋ]
v. 蒸发(vaporize 的 ing 形式)
英英释义
单词用法
蒸发液体 | |
蒸发过程 | |
蒸发设备 | |
蒸发点 | |
蒸发温度 | |
蒸发技术 |
同义词
| 蒸发 | 水在高温下迅速蒸发。 | ||
| 冒烟 | 由于反应,化学物质冒烟。 | ||
| 雾化 | 香水正在雾化到空气中。 | ||
| 分散 | 喷雾均匀地分散在表面上。 |
反义词
| 凝结 | 水蒸气正在凝结成水滴。 | ||
| 固化 | 金属在冷却时正在固化。 |
例句
1.However, if you must store them in your office, be sure to seal them properly to prevent vaporizing.
不过,如果你要存放在你的办公室,他们一定要妥善密封,以防止汽化。
2.The asteroid blew up with the energy of the largest hydrogen bombs ever detonated on Earth, vaporizing the desert and unleashing deadly supersonic winds for many miles.
小行星爆炸释放的能量相当于地球上有史以来最大的氢弹爆炸的能量总和,使沙漠蒸发,并在许多英里内引起了致命的超音速风。
3.Vaporizing carbon dioxide can produce very cold temperatures.
正在蒸发的二氧化碳会造成极低的温度。
4.The asteroid blew up with the energy of the largest hydrogen bombs ever detonated on Earth, vaporizing the desert and unleashing deadly supersonic winds for many miles.
小行星爆炸释放的能量相当于地球上有史以来最大的氢弹爆炸的能量总和,使沙漠蒸发,并在许多英里内引起了致命的超音速风。
5.The application situation of LNG is analyzed, and the main equipment and safety design of LNG vaporizing station are discussed.
探讨了LNG气化站内LNG储罐、气化器和管道系统、消防系统等设施的安全设计要点。
6.The gas supply technology, construction cost, operation cost and scope of application for medium and small-scale LNG vaporizing station are discussed.
探讨了中小型液化天然气气化站的供气工艺、造价、运行成本及适用范围。
7.Besides, the solid catalysts are immersed in liquid distillates, so the heat of exothermic reactions is immediately absorbed by vaporizing more liquid.
此外,固体催化剂浸没在液体馏分中,因此放热反应放出的热量立即被蒸发出的更多液体吸收。
8.At proper temperature, vaporizing solvent is a better route of sol gel for the preparation of nanosized tio 2 powder.
适宜温度下将溶剂蒸发是溶胶—凝胶法制备纳米二氧化钛一种较好的胶凝方式。
9.The device works by vaporizing the liquid to deliver medication.
该设备通过蒸发液体来输送药物。
10.The scientist is vaporizing a sample to study its properties.
科学家正在蒸发一个样本以研究其性质。
11.The artist uses a technique of vaporizing paint to create a unique effect.
艺术家使用蒸发油漆的技术来创造独特效果。
12.They are vaporizing the chemicals to create a mist for the experiment.
他们正在蒸发化学物质,以便为实验创造雾气。
13.In the process of vaporizing, the liquid turns into gas.
在蒸发的过程中,液体转变为气体。
作文
The process of vaporizing is fascinating and plays a crucial role in various scientific and industrial applications. In simple terms, vaporizing refers to the transformation of a substance from a liquid state into a vapor or gas. This process is essential in many areas, including cooking, manufacturing, and even in the medical field. Understanding how vaporizing works can help us appreciate its significance in our daily lives.One of the most common examples of vaporizing that we encounter is when we boil water. As the temperature rises, the water molecules gain energy and begin to move faster. Eventually, they reach a point where they can escape the liquid state and enter the air as steam. This is a practical illustration of vaporizing, which is not only a physical change but also involves energy transfer. The heat energy provided to the water causes it to vaporize, demonstrating the relationship between temperature and phase changes.In the culinary world, vaporizing is often used in techniques like steaming vegetables or creating sauces. When food is cooked using steam, it retains more nutrients compared to boiling. The steam is produced by vaporizing water, allowing the food to cook evenly without losing its flavor or texture. This method highlights the importance of vaporizing in enhancing the quality of our meals.In industrial applications, vaporizing is crucial for processes such as distillation, where mixtures are separated based on their boiling points. For instance, in the petrochemical industry, crude oil is heated, and different components are vaporized at various temperatures to produce gasoline, diesel, and other fuels. This method relies heavily on the principles of vaporizing and demonstrates its importance in producing everyday products that power our vehicles and machinery.Moreover, vaporizing technology has advanced significantly in recent years, particularly in the field of vaping. E-cigarettes work by vaporizing a liquid solution, which contains nicotine and flavorings, into a vapor that users inhale. This method is considered by some as a less harmful alternative to traditional smoking. However, the health implications of vaporizing these substances are still being studied, making it a topic of ongoing research and debate.In conclusion, vaporizing is a fundamental process that occurs in various aspects of life, from cooking to industrial applications. By understanding the mechanics behind vaporizing, we can better appreciate its role in our daily activities and the broader implications it has in science and technology. Whether we are boiling water for tea or utilizing advanced technologies in manufacturing, the concept of vaporizing remains an integral part of our existence, highlighting the interconnectedness of science and everyday life.
“蒸发”这一过程令人着迷,并在各种科学和工业应用中发挥着至关重要的作用。简单来说,“蒸发”是指物质从液态转变为蒸气或气体的过程。这个过程在许多领域都是必不可少的,包括烹饪、制造,甚至医疗领域。理解“蒸发”如何工作可以帮助我们欣赏它在日常生活中的重要性。我们遇到的“蒸发”的一个常见例子是当我们煮水时。当温度上升时,水分子获得能量并开始加速运动。最终,它们达到一个点,可以逃脱液态,进入空气中形成蒸汽。这是“蒸发”的一个实际例证,它不仅是物理变化,还涉及能量传递。提供给水的热能使其“蒸发”,展示了温度与相变之间的关系。在烹饪世界中,“蒸发”常用于像蒸蔬菜或制作酱汁这样的技术。当食物使用蒸汽烹饪时,与煮沸相比,它能保留更多的营养。蒸汽是通过“蒸发”水产生的,使食物均匀烹饪而不失去味道或质地。这种方法突显了“蒸发”在提高我们餐食质量中的重要性。在工业应用中,“蒸发”对如蒸馏等过程至关重要,其中混合物根据其沸点进行分离。例如,在石油化工行业,原油被加热,不同成分在不同温度下“蒸发”以产生汽油、柴油和其他燃料。这种方法严重依赖“蒸发”的原理,展示了它在生产我们日常所需产品中的重要性,这些产品为我们的车辆和机械提供动力。此外,近年来“蒸发”技术在电子烟领域取得了显著进展。电子烟通过“蒸发”一种含有尼古丁和香料的液体溶液,产生用户吸入的蒸汽。这种方法被一些人视为传统吸烟的危害较小的替代品。然而,“蒸发”这些物质的健康影响仍在研究中,使其成为一个持续研究和辩论的话题。总之,“蒸发”是一个基本过程,发生在生活的各个方面,从烹饪到工业应用。通过理解“蒸发”背后的机制,我们可以更好地欣赏它在日常活动中的角色以及它在科学和技术中的更广泛影响。无论我们是在煮水喝茶,还是在制造中利用先进技术,“蒸发”的概念仍然是我们存在中不可或缺的一部分,突显了科学与日常生活之间的相互联系。
